385 lines
9.5 KiB
C
385 lines
9.5 KiB
C
/*
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* Copyright (C) 2010 SUSE Linux Products GmbH. All rights reserved.
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*
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* Authors:
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* Alexander Graf <agraf@suse.de>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License, version 2, as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include <linux/kvm_host.h>
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#include <asm/kvm_ppc.h>
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#include <asm/kvm_book3s.h>
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#include <asm/mmu-hash32.h>
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#include <asm/machdep.h>
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#include <asm/mmu_context.h>
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#include <asm/hw_irq.h>
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/* #define DEBUG_MMU */
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/* #define DEBUG_SR */
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#ifdef DEBUG_MMU
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#define dprintk_mmu(a, ...) printk(KERN_INFO a, __VA_ARGS__)
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#else
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#define dprintk_mmu(a, ...) do { } while(0)
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#endif
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#ifdef DEBUG_SR
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#define dprintk_sr(a, ...) printk(KERN_INFO a, __VA_ARGS__)
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#else
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#define dprintk_sr(a, ...) do { } while(0)
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#endif
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#if PAGE_SHIFT != 12
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#error Unknown page size
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#endif
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#ifdef CONFIG_SMP
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#error XXX need to grab mmu_hash_lock
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#endif
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#ifdef CONFIG_PTE_64BIT
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#error Only 32 bit pages are supported for now
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#endif
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static ulong htab;
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static u32 htabmask;
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void kvmppc_mmu_invalidate_pte(struct kvm_vcpu *vcpu, struct hpte_cache *pte)
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{
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volatile u32 *pteg;
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/* Remove from host HTAB */
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pteg = (u32*)pte->slot;
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pteg[0] = 0;
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/* And make sure it's gone from the TLB too */
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asm volatile ("sync");
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asm volatile ("tlbie %0" : : "r" (pte->pte.eaddr) : "memory");
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asm volatile ("sync");
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asm volatile ("tlbsync");
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}
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/* We keep 512 gvsid->hvsid entries, mapping the guest ones to the array using
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* a hash, so we don't waste cycles on looping */
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static u16 kvmppc_sid_hash(struct kvm_vcpu *vcpu, u64 gvsid)
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{
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return (u16)(((gvsid >> (SID_MAP_BITS * 7)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 6)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 5)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 4)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 3)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 2)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 1)) & SID_MAP_MASK) ^
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((gvsid >> (SID_MAP_BITS * 0)) & SID_MAP_MASK));
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}
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static struct kvmppc_sid_map *find_sid_vsid(struct kvm_vcpu *vcpu, u64 gvsid)
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{
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struct kvmppc_sid_map *map;
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u16 sid_map_mask;
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if (vcpu->arch.shared->msr & MSR_PR)
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gvsid |= VSID_PR;
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sid_map_mask = kvmppc_sid_hash(vcpu, gvsid);
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map = &to_book3s(vcpu)->sid_map[sid_map_mask];
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if (map->guest_vsid == gvsid) {
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dprintk_sr("SR: Searching 0x%llx -> 0x%llx\n",
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gvsid, map->host_vsid);
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return map;
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}
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map = &to_book3s(vcpu)->sid_map[SID_MAP_MASK - sid_map_mask];
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if (map->guest_vsid == gvsid) {
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dprintk_sr("SR: Searching 0x%llx -> 0x%llx\n",
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gvsid, map->host_vsid);
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return map;
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}
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dprintk_sr("SR: Searching 0x%llx -> not found\n", gvsid);
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return NULL;
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}
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static u32 *kvmppc_mmu_get_pteg(struct kvm_vcpu *vcpu, u32 vsid, u32 eaddr,
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bool primary)
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{
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u32 page, hash;
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ulong pteg = htab;
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page = (eaddr & ~ESID_MASK) >> 12;
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hash = ((vsid ^ page) << 6);
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if (!primary)
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hash = ~hash;
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hash &= htabmask;
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pteg |= hash;
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dprintk_mmu("htab: %lx | hash: %x | htabmask: %x | pteg: %lx\n",
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htab, hash, htabmask, pteg);
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return (u32*)pteg;
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}
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extern char etext[];
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int kvmppc_mmu_map_page(struct kvm_vcpu *vcpu, struct kvmppc_pte *orig_pte)
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{
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pfn_t hpaddr;
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u64 va;
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u64 vsid;
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struct kvmppc_sid_map *map;
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volatile u32 *pteg;
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u32 eaddr = orig_pte->eaddr;
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u32 pteg0, pteg1;
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register int rr = 0;
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bool primary = false;
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bool evict = false;
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struct hpte_cache *pte;
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/* Get host physical address for gpa */
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hpaddr = kvmppc_gfn_to_pfn(vcpu, orig_pte->raddr >> PAGE_SHIFT);
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if (is_error_pfn(hpaddr)) {
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printk(KERN_INFO "Couldn't get guest page for gfn %lx!\n",
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orig_pte->eaddr);
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return -EINVAL;
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}
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hpaddr <<= PAGE_SHIFT;
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/* and write the mapping ea -> hpa into the pt */
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vcpu->arch.mmu.esid_to_vsid(vcpu, orig_pte->eaddr >> SID_SHIFT, &vsid);
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map = find_sid_vsid(vcpu, vsid);
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if (!map) {
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kvmppc_mmu_map_segment(vcpu, eaddr);
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map = find_sid_vsid(vcpu, vsid);
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}
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BUG_ON(!map);
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vsid = map->host_vsid;
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va = (vsid << SID_SHIFT) | (eaddr & ~ESID_MASK);
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next_pteg:
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if (rr == 16) {
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primary = !primary;
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evict = true;
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rr = 0;
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}
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pteg = kvmppc_mmu_get_pteg(vcpu, vsid, eaddr, primary);
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/* not evicting yet */
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if (!evict && (pteg[rr] & PTE_V)) {
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rr += 2;
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goto next_pteg;
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}
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dprintk_mmu("KVM: old PTEG: %p (%d)\n", pteg, rr);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[0], pteg[1]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[2], pteg[3]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[4], pteg[5]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[6], pteg[7]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[8], pteg[9]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[10], pteg[11]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[12], pteg[13]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[14], pteg[15]);
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pteg0 = ((eaddr & 0x0fffffff) >> 22) | (vsid << 7) | PTE_V |
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(primary ? 0 : PTE_SEC);
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pteg1 = hpaddr | PTE_M | PTE_R | PTE_C;
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if (orig_pte->may_write) {
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pteg1 |= PP_RWRW;
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mark_page_dirty(vcpu->kvm, orig_pte->raddr >> PAGE_SHIFT);
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} else {
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pteg1 |= PP_RWRX;
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}
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local_irq_disable();
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if (pteg[rr]) {
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pteg[rr] = 0;
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asm volatile ("sync");
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}
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pteg[rr + 1] = pteg1;
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pteg[rr] = pteg0;
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asm volatile ("sync");
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local_irq_enable();
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dprintk_mmu("KVM: new PTEG: %p\n", pteg);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[0], pteg[1]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[2], pteg[3]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[4], pteg[5]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[6], pteg[7]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[8], pteg[9]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[10], pteg[11]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[12], pteg[13]);
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dprintk_mmu("KVM: %08x - %08x\n", pteg[14], pteg[15]);
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/* Now tell our Shadow PTE code about the new page */
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pte = kvmppc_mmu_hpte_cache_next(vcpu);
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dprintk_mmu("KVM: %c%c Map 0x%llx: [%lx] 0x%llx (0x%llx) -> %lx\n",
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orig_pte->may_write ? 'w' : '-',
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orig_pte->may_execute ? 'x' : '-',
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orig_pte->eaddr, (ulong)pteg, va,
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orig_pte->vpage, hpaddr);
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pte->slot = (ulong)&pteg[rr];
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pte->host_va = va;
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pte->pte = *orig_pte;
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pte->pfn = hpaddr >> PAGE_SHIFT;
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kvmppc_mmu_hpte_cache_map(vcpu, pte);
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return 0;
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}
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static struct kvmppc_sid_map *create_sid_map(struct kvm_vcpu *vcpu, u64 gvsid)
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{
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struct kvmppc_sid_map *map;
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struct kvmppc_vcpu_book3s *vcpu_book3s = to_book3s(vcpu);
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u16 sid_map_mask;
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static int backwards_map = 0;
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if (vcpu->arch.shared->msr & MSR_PR)
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gvsid |= VSID_PR;
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/* We might get collisions that trap in preceding order, so let's
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map them differently */
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sid_map_mask = kvmppc_sid_hash(vcpu, gvsid);
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if (backwards_map)
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sid_map_mask = SID_MAP_MASK - sid_map_mask;
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map = &to_book3s(vcpu)->sid_map[sid_map_mask];
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/* Make sure we're taking the other map next time */
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backwards_map = !backwards_map;
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/* Uh-oh ... out of mappings. Let's flush! */
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if (vcpu_book3s->vsid_next >= VSID_POOL_SIZE) {
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vcpu_book3s->vsid_next = 0;
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memset(vcpu_book3s->sid_map, 0,
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sizeof(struct kvmppc_sid_map) * SID_MAP_NUM);
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kvmppc_mmu_pte_flush(vcpu, 0, 0);
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kvmppc_mmu_flush_segments(vcpu);
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}
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map->host_vsid = vcpu_book3s->vsid_pool[vcpu_book3s->vsid_next];
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vcpu_book3s->vsid_next++;
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map->guest_vsid = gvsid;
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map->valid = true;
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return map;
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}
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int kvmppc_mmu_map_segment(struct kvm_vcpu *vcpu, ulong eaddr)
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{
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u32 esid = eaddr >> SID_SHIFT;
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u64 gvsid;
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u32 sr;
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struct kvmppc_sid_map *map;
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struct kvmppc_book3s_shadow_vcpu *svcpu = to_svcpu(vcpu);
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if (vcpu->arch.mmu.esid_to_vsid(vcpu, esid, &gvsid)) {
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/* Invalidate an entry */
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svcpu->sr[esid] = SR_INVALID;
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return -ENOENT;
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}
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map = find_sid_vsid(vcpu, gvsid);
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if (!map)
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map = create_sid_map(vcpu, gvsid);
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map->guest_esid = esid;
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sr = map->host_vsid | SR_KP;
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svcpu->sr[esid] = sr;
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dprintk_sr("MMU: mtsr %d, 0x%x\n", esid, sr);
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return 0;
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}
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void kvmppc_mmu_flush_segments(struct kvm_vcpu *vcpu)
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{
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int i;
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struct kvmppc_book3s_shadow_vcpu *svcpu = to_svcpu(vcpu);
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dprintk_sr("MMU: flushing all segments (%d)\n", ARRAY_SIZE(svcpu->sr));
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for (i = 0; i < ARRAY_SIZE(svcpu->sr); i++)
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svcpu->sr[i] = SR_INVALID;
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}
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void kvmppc_mmu_destroy(struct kvm_vcpu *vcpu)
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{
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int i;
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kvmppc_mmu_hpte_destroy(vcpu);
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preempt_disable();
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for (i = 0; i < SID_CONTEXTS; i++)
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__destroy_context(to_book3s(vcpu)->context_id[i]);
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preempt_enable();
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}
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/* From mm/mmu_context_hash32.c */
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#define CTX_TO_VSID(c, id) ((((c) * (897 * 16)) + (id * 0x111)) & 0xffffff)
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int kvmppc_mmu_init(struct kvm_vcpu *vcpu)
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{
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struct kvmppc_vcpu_book3s *vcpu3s = to_book3s(vcpu);
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int err;
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ulong sdr1;
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int i;
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int j;
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for (i = 0; i < SID_CONTEXTS; i++) {
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err = __init_new_context();
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if (err < 0)
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goto init_fail;
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vcpu3s->context_id[i] = err;
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/* Remember context id for this combination */
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for (j = 0; j < 16; j++)
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vcpu3s->vsid_pool[(i * 16) + j] = CTX_TO_VSID(err, j);
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}
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vcpu3s->vsid_next = 0;
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/* Remember where the HTAB is */
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asm ( "mfsdr1 %0" : "=r"(sdr1) );
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htabmask = ((sdr1 & 0x1FF) << 16) | 0xFFC0;
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htab = (ulong)__va(sdr1 & 0xffff0000);
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kvmppc_mmu_hpte_init(vcpu);
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return 0;
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init_fail:
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for (j = 0; j < i; j++) {
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if (!vcpu3s->context_id[j])
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continue;
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__destroy_context(to_book3s(vcpu)->context_id[j]);
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}
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return -1;
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}
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